RU2021128404A - FILTER SYSTEM - Google Patents

Claims (13)

1. A filter system comprising at least one filter element (5) having a permeate sleeve (20), wherein the permeate sleeve (20) defines a secondary flow space, is closed at the front end and has a permeate outlet (29) at the rear end, wherein at least part of the wall of the permeate sleeve (20) is formed by a membrane (7) with pores, the pores connecting the secondary flow space with the primary flow space, characterized in that the membrane (7) is at least part of the wall of the supply hose (10), which is located along the permeate hose (20) and limits the primary flow space, and which at the front end has an inlet (25) of the source liquid and on at the rear end - retentate outlet (23) spaced from it in the longitudinal direction of the supply sleeve (10). 2. The filter system according to claim 1, characterized in that the wall of the permeate sleeve (20) includes an inner sleeve and an outer sleeve covering the inner sleeve, while the inner sleeve is a supply sleeve (10) with a membrane (7). 3. Filter system according to claim 1, characterized in that the wall of the permeate sleeve (20) includes an inner sleeve and an outer sleeve covering the inner sleeve, the inner sleeve being a permeate sleeve (20) with a membrane (7). 4. The filter system according to claim 1, characterized in that the supply sleeve (10) and the permeate sleeve (20) are located adjacent to each other, and that the membrane (7) is a common section of the walls of the supply sleeve (10) and the sleeve (20) for permeate. 5. The filter system according to one of paragraphs. 1-4, characterized in that at least one filter element (5) in the form of a roll module is spirally wound on a collector (1) with collection holes (3), and that the permeate outlet (29) is located at the inner end of the sleeve (20) for permeate in the area of the collector (1) and is connected to the collector (1) by means of collecting holes (3). 6. Filter system according to claim 5, characterized in that the intermediate space between adjacent layers of at least one rolled filter element (5) at each of the two end sides of the roll module is at least partially sealed with a seal (21). 7. Filter system according to claim. 6, characterized in that the primary flow space or secondary flow space is limited by adjacent layers of at least one rolled filter element (5) and mechanical seals (21). 8. The filter system according to one of paragraphs. 5-7, characterized in that the roll module is located in the housing (31), while the housing (31) includes a shell (33) of the housing, which is closed by a cover (35) of the inlet side with at least one inlet (37) and a cover (45) outlet side with at least one outlet (47). 9. The filter system according to claim 8, characterized in that between the cover (35) of the inlet side and the roll module there is a front sealing element (41), which seals at the ends the intermediate space between adjacent layers of at least one filter element (5), and in which there is at least one recess (43) connecting the inlet (37) with the inlet (25) of the source liquid, and/or that between the cover (45) of the exit side and the roll module there is a rear sealing element (51), which seals at the ends the intermediate space between adjacent layers of at least one filter element (5), and in which there is at least one recess (53) , connecting the outlet (47) with the release (23) of the retentate. 10. A method for preparing a liquid using a filter system, wherein the filter system includes a supply sleeve (10) located along the permeate sleeve (20), while the permeate sleeve (20) is closed at the front end and has a permeate outlet (29) on rear end, while the membrane (7) with pores is a common section of the wall of the supply sleeve (10) and sleeve (20) for permeate, characterized in that liquid under pressure enters through the inlet (23) of the source liquid at the front end into the supply sleeve (10), part of the liquid through the supply sleeve (10) flows along the permeate sleeve (20) and at the end of the supply sleeve (10) flows out through the hole (25 ) for the retentate, and the other part of the liquid through the pores of the membrane (7) enters the permeate sleeve (20) and flows out of the permeate sleeve (20) through the permeate outlet (29).